Layer-by-Layer Assembly of Ultrathin Composite Films from Micron-Sized Graphite Oxide Sheets and Polycations

The protein collapsin was purified from chick brain on the basis of its ability to inhibit sensory neuron growth cones, implicating this molecule in sensory axon guidance (Luo et al. [1993] Cell 75:217-227). To examine the relationship between collapsin and sensory axon growth, we examined the pattern of mRNA expression of collapsin's mammalian paralogue, Semaphorin III (Sema III), and compared it to dorsal root ganglion (DRG) axon pathways in the developing rat embryo. Centrally, DRG axons enter the spinal cord by embryonic (E) 11 and branch into the gray matter by E15 in brachial and thoracic regions. Laminar specific targets are reached by E17. Between E13 and E17, Sema III mRNA is expressed at high levels in the entire ventral half of the spinal cord except the floor plate. This pattern suggests that Sema III may inhibit non-proprioceptive sensory axons from penetrating the ventral spinal cord. Peripherally, sensory axons have entered the anterior sclerotome by E11 at all rostrocaudal levels. At this age, Sema III mRNA is already expressed in the dermamyotome and ventral aspect of the posterior sclerotome, areas which axons pass between but do not penetrate en route to their peripheral targets. From E12 to E15, the axons lengthen and branch into smaller fascicles which extend toward peripheral targets. During this time, Sema III mRNA is expressed by many mesodermal structures surrounding the axon fascicles, with highest levels observed in the dermamyotome, perinotochordal mesenchyme, pelvic girdle, and limb. As development proceeds, Sema III mRNA expression is quickly downregulated before disappearing by birth. Taken together, our results demonstrate that the gene for Sema III is expressed in central and peripheral regions which are avoided by growing DRG axons. These findings are consistent with the idea that Sema III inhibits growth and branching of axons into inappropriate areas during development.

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Neuronal Production of Fibronectin in the Cerebral Cortex during Migration and Layer Formation Is Unique to Specific Cortical Domains

Sheppard

Brunstrom

Thornton

et al. 1995

Developmental Biology

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The distribution of fibronectin (FN) changes rapidly during early development of the cerebral cortex, but its cellular source is not known. With in situ hybridization we find two spatially and temporally distinct periods of FN mRNA expression in the embryonic and early postnatal cortex of the mouse. Before and during formation of the preplate by the first postmitotic neurons, FN mRNA levels are high throughout the telencephalic vesicle, deep in the neuroepithelial proliferative zone that contains dividing cells and the cell bodies of radial glia; expression in the cortical proliferative zone is limited to the period of neurogenesis. Just after the cortical plate is formed within the preplate, FN mRNA is expressed in the intermediate zone, which contains migrating neurons, and in the cortical plate, where neurons migrate past their predecessors to form layers. Brefeldin A treatment of an organotypic slice preparation demonstrates FN production in the intermediate zone and cortical plate, in locations that correspond exactly to the distribution of FN mRNA by in situ hybridization. FN-producing cells immunolabel with neuron-specific markers; in the intermediate zone and lower cortical plate they have morphological features characteristic of migrating neurons and are closely apposed to radial glia. FN mRNA expression and protein production continue in neurons of the cortical plate through the period of layer formation and then are downregulated. Examination of dissociated cortical cells by laser confocal microscopy confirms that FN accumulation after brefeldin A treatment is intracellular in neurons as well as in glia. Neuroepithelial expression of FN mRNA takes place throughout the telencephalon; FN produced by neurons is restricted to cells migrating toward and into specific cortical domains that include neocortex, insular and perirhinal cortex, and subiculum. Thus FN may be involved initially in supporting the cell division and fate determination that takes place in the neuroepithelium; later production by migrating neurons may play a role in the selection of radial glial pathways that lead to specific cortical regions, and in interactions between neurons as they form cortical layers within these regions.

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Isolation of embryonic cell‐lines from porcine blastocysts

Gerfen

Wheeler

1995

Animal Biotechnology

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Comparison of the semen characteristics of Fengjing, Meishan and Yorkshire boars

Gerfen

White

Cotta³

et al. 1994

Theriogenology

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Comparisons of Culture of Chinese Meishan with Yorkshire Pig Embryosin vitro: Effects of Protein Supplementation and Development

White

Gerfen

Walters

et al. 2000

Journal of Applied Animal Research

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R. W. Gerfen

The guidance molecule Semaphorin III is expressed in regions of spinal cord and periphery avoided by growing sensory axons

Neuronal Production of Fibronectin in the Cerebral Cortex during Migration and Layer Formation Is Unique to Specific Cortical Domains

Isolation of embryonic cell‐lines from porcine blastocysts

Comparison of the semen characteristics of Fengjing, Meishan and Yorkshire boars

Comparisons of Culture of Chinese Meishan with Yorkshire Pig Embryosin vitro: Effects of Protein Supplementation and Development

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